EP0668309A1 - Process for the continuous hydrolytic polymerisation of laurolactam - Google Patents
Process for the continuous hydrolytic polymerisation of laurolactam Download PDFInfo
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- EP0668309A1 EP0668309A1 EP94120047A EP94120047A EP0668309A1 EP 0668309 A1 EP0668309 A1 EP 0668309A1 EP 94120047 A EP94120047 A EP 94120047A EP 94120047 A EP94120047 A EP 94120047A EP 0668309 A1 EP0668309 A1 EP 0668309A1
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- C—CHEMISTRY; METALLURGY
- C08—ORGANIC MACROMOLECULAR COMPOUNDS; THEIR PREPARATION OR CHEMICAL WORKING-UP; COMPOSITIONS BASED THEREON
- C08G—MACROMOLECULAR COMPOUNDS OBTAINED OTHERWISE THAN BY REACTIONS ONLY INVOLVING UNSATURATED CARBON-TO-CARBON BONDS
- C08G69/00—Macromolecular compounds obtained by reactions forming a carboxylic amide link in the main chain of the macromolecule
- C08G69/02—Polyamides derived from amino-carboxylic acids or from polyamines and polycarboxylic acids
- C08G69/08—Polyamides derived from amino-carboxylic acids or from polyamines and polycarboxylic acids derived from amino-carboxylic acids
- C08G69/14—Lactams
- C08G69/16—Preparatory processes
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- the invention relates to a process for the continuous hydrolytic polymerization of laurolactam, a prepolymer being first prepared by means of hydrolytic cleavage, which is then condensed to a high molecular weight product.
- caprolactam For the polymerization of caprolactam to polyamide 6, this procedure has been state of the art for some time, e.g. B. from H. Ludewig, fiber research textile technology. 2, 341-355 (1951). However, the processes described for caprolactam cannot be used for laurinlacam without exception, since this material behaves completely differently than caprolactam in terms of its requirements for the polymerization conditions (water content, pressure, temperature, residence time).
- DE-OS 33 06 906 describes a process for the continuous polymerization of caprolactam, in which the lactam containing 1 to 25% by weight of water is pre-polymerized in a prepolymerization zone under a pressure of 1 to 10 bar with simultaneous evaporation of the water within a residence time of 1 to 10 minutes heated to a temperature of 220 to 280 ° C and then further polymerized in a polymerization zone with continuous removal of the steam.
- laurolactam instead of the lactams mentioned in this document with 7 to 12 ring members, however, practically no conversion is achieved by this process.
- SU-A 12 08 044 uses phosphoric acid as a catalyst; Laurinlactam sales only reach 99%. The remaining residual monomer content of 1% causes problems when processing and using the product. Commercial use of these products would require prior, expensive demonomerization.
- the use of such a strongly acidic catalyst would have the disadvantage that the polylaurine lactam thus produced undergoes increased hydrolytic degradation when it is processed or when it is used at elevated temperature; in addition, the polymerization reactors and processing machines are subject to increased corrosion.
- JP-A 60 041 647 only covers the range of very high temperatures and pressures as process parameters. Under these conditions, however, gel particles are increasingly formed and the color is impaired. Also initially only oligomers are accessible whose further polycondensation, for. B. according to JP-A 61 166 833, requires complex techniques and units such as degassing screw machines.
- JP-A 49 021 313 leads to reaction times which do not result in any significant advantages over discontinuous batch procedures (total residence time 13 hours).
- the procedure described leads to gelation of the product in the second reactor.
- EP-A 0 530 592 describes a continuous polymerization process in a complicated multi-part reactor which has to be kept under a temperature gradient. A condensation system with stirrers is required to produce the finished polymer. The stated water contents during the polymerization (1 to 10%) are outside the values for a maximum space / time yield. The residence times of 7 to 8 hours required for the prepolymerization therefore do not offer any advantage over the batch process.
- the object of the present invention was therefore to develop an apparatus which is as simple and economical as possible in terms of apparatus.
- no catalysts should be necessary that ultimately remain in the product.
- the residual monomer content of the polymer obtained should correspond to or even be lower than that of the materials produced discontinuously.
- the products should have a very good level of color and gel content.
- Laurin lactam and water are preferably conveyed separately with one pump each, piston pumps or piston diaphragm pumps preferably being used.
- the material flows are mixed and brought to the reaction temperature in a gentle manner.
- a suitably designed stirred reactor but preferably a loop reactor, can be used for this.
- the loop reactor contains a pump which pumps the material fed in, preferably with 10 to 100 times the current fed in a circuit.
- the average residence time of the reacting material in the tubular reactor is preferably 0.5 to 6 hours and particularly preferably 1.5 to 4 hours.
- the tube can, if necessary, be fully or partially equipped with static mixing elements.
- a certain, freely selectable process pressure can be maintained inside the tubular reactor.
- the setpoint pressure is selected so that any formation of vapor bubbles in the tubular reactor is prevented.
- a degassing unit for. B. a screw machine, a thin film evaporator, a film truder or a flash container can be used.
- a flash tank is particularly suitable, the internal pressure of which can be regulated by a control valve in the outgoing vapor line. Since the melt cools down as a result of the evaporation process, it may be expedient, depending on the water content used, to conduct the melt supplied after the expansion as a film over the inner wall of a heated, vertical pipe in order to be able to supply heat more easily.
- the average residence time of the melt in the flash container is advantageously 1 to 3 hours.
- the system may have a further degassing stage, which can consist of the same units as the first degassing stage.
- a flash container can also be used particularly advantageously here. In this case there should be the possibility to apply negative pressure.
- Another preferred option here is the use of a degassing screw machine.
- the hydrolytic cleavage of the laurolactam begins. If, for example, a loop reactor is used, the splitting process takes place up to a conversion of approx. 30 to 40%. In the further course of the reaction, the cleavage is completed to a residual laurolactam content of approximately 0.3% by weight. At the same time, the polycondensation takes place up to a number-average degree of polymerization (depending on the water content) of 10 to 20.
- a certain filling level of polymer melt is preferably maintained in the expansion vessel so that the material has sufficient dwell time for the condensation.
- the product largely freed of water in the degassing unit is preferably extended by means of a pump, particularly preferably a gear pump.
- additives such as. B. molecular weight regulators (such as lauric acid or dodecanedioic acid), comonomers such as caprolactam, M- aminoundecanoic acid or AH saline or, if desired, also catalysts such as phosphoric acid or hypophosphorous acid. Stabilizers can also be fed in.
- molecular weight regulators such as lauric acid or dodecanedioic acid
- comonomers such as caprolactam, M- aminoundecanoic acid or AH saline
- catalysts such as phosphoric acid or hypophosphorous acid.
- Stabilizers can also be fed in.
- the product obtained has a light color and has a molecular weight (number average from end group determination) of 14,500.
- the residual content of laurolactam is less than 0.3%.
- the product is free of gel components.
- Example 2 The procedure is the same as in Example 1, with the difference that the circulation reactor is dispensed with here.
- the product properties remain unchanged, only the residual monomer content increases to 0.5%.
- Example 2 The procedure is as in Example 1, but the amount of hypophosphorous acid (H 3 P0 2 ) added to the water fed in is such that the total amount, based on the laurolactam fed in, is 60 ppm.
- a high quality product according to Example 1 is obtained, but the molecular weight is 19,400.
- the process parameters are:
- Example 1 The product obtained has a light color and is free from gel components.
- the residual laurin lactam content is less than 0.3%.
- the molecular weight is 18,700.
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Abstract
Description
Gegenstand der Erfindung ist ein Verfahren zur kontinuierlichen hydrolytischen Polymerisation von Laurinlactam, wobei zunächst mittels hydrolytischer Spaltung ein Präpolymer hergestellt wird, das anschließend zu einem hochmolekularen Produkt kondensiert wird.The invention relates to a process for the continuous hydrolytic polymerization of laurolactam, a prepolymer being first prepared by means of hydrolytic cleavage, which is then condensed to a high molecular weight product.
Die übliche Methode zur Herstellung von Polyamid 12 aus Laurinlactam ist die diskontinuierliche hydrolytische Polymerisation in einem gerührten Reaktionsgefäß, wie sie in verschiedenen Patentanmeldungen beschrieben wird (siehe z. B. DE-OSS 15 70 774, 21 52 194 und 36 21 804).The usual method for producing polyamide 12 from laurolactam is discontinuous hydrolytic polymerization in a stirred reaction vessel, as described in various patent applications (see, for example, DE-OSS 15 70 774, 21 52 194 and 36 21 804).
Diese Methode besitzt unter anderem folgende inhärente Nachteile:
- - Die zuzufügende Menge von Wasser, welches eine stark beschleunigende Wirkung auf die Ringspaltung und damit auf die Präpolymerisation besitzt, aber bei den notwendigen Temperaturen auch hohe Dampfdrücke bewirkt, wird durch die Druckfestigkeit des verwendeten Reaktors begrenzt. Da die Kosten großer, gerührter Reaktionskessel mit dem zulässigen Betriebsdruck stark ansteigen, wird gewöhnlich mit relativ geringen Wassermengen gearbeitet, was lange Reaktionszeiten zur Folge hat. Dies führt zu hohen Fertigungskosten.
- - Die diskontinuierliche Fahrweise hat eine nur sequentielle Benutzung von Einzelaggregaten, wie z. B. Fördereinrichtungen, Ausfahrfilter oder Granulatoren, zur Folge. Diese Aggregate müssen daher für Durchsätze ausgelegt werden, die viel höher sind als der mittlere Durchsatz der Gesamtanlage, was zu hohen Kosten führt.
- - Beim diskontinuierlichen Betrieb von Kesselanlagen entstehen üblicherweise Probleme durch Material, welches beim Entleeren des Kessels in diesem verbleibt. Im vorliegenden Fall kommt es unter verlängerten Verweilzeiten zu störenden Nebenreaktionen des entstandenen Polyamid 12. Produktreste im Reaktor und in den Leitungen können z. B. zu gelartigen Verunreinigungen im nächsten Ansatz führen.
- - The amount of water to be added, which has a strongly accelerating effect on the ring cleavage and thus on the prepolymerization, but also causes high vapor pressures at the necessary temperatures, is limited by the pressure resistance of the reactor used. Since the costs of large, stirred reaction vessels increase sharply with the permissible operating pressure, relatively small amounts of water are usually used, which results in long reaction times. This leads to high manufacturing costs.
- - The discontinuous mode of operation has only a sequential use of individual units, such as. B. conveyors, exit filters or granulators, as a result. These units must therefore be designed for throughputs that are much higher than the average throughput of the overall system, which leads to high costs.
- - In the discontinuous operation of boiler systems, problems usually arise from material that remains in the boiler when it is emptied. In the present case, there are disturbing side reactions of the resulting polyamide 12 with prolonged residence times. B. lead to gel-like impurities in the next batch.
Die Nachteile einer diskontinuierlichen Verfahrensweise lassen sich durch ein kontinuierliches Polymerisationsverfahren vermeiden.The disadvantages of a discontinuous procedure can be avoided by a continuous polymerization process.
Für die Polymerisation von Caprolactam zu Polyamid 6 ist diese Vorgehensweise seit geraumer Zeit Stand der Technik, wie z. B. aus H. Ludewig, Faserforschung Textiltechn. 2, 341 - 355 (1951), hervorgeht. Für Caprolactam beschriebene Verfahren sind jedoch ausnahmslos für Laurinlacam nicht anwendbar, da sich dieses Material bezüglich seiner Anforderungen an die Polymerisationsbedingungen (Wassergehalt, Druck, Temperatur, Verweilzeit) völlig anders verhält als Caprolactam.For the polymerization of caprolactam to
So ist in der DE-OS 33 06 906 ein Verfahren zur kontinuierlichen Polymerisation von Caprolactam beschrieben, bei dem man das 1 bis 25 Gew.-% Wasser enthaltende Lactam in einer Vorpolymerisationszone unter einem Druck von 1 bis 10 bar unter gleichzeitiger Verdampfung des Wassers innerhalb einer Verweilzeit von 1 bis 10 Minuten auf eine Temperatur von 220 bis 280 ° C erhitzt und anschließend in einer Polymerisationszone unter kontinuierlicher Abtrennung des Dampfs weiterpolymerisiert. Bei Verwendung von Laurinlactam anstelle der in dieser Schrift genannten Lactame mit 7 bis 12 Ringgliedern wird nach diesem Verfahren jedoch praktisch kein Umsatz erzielt.For example, DE-OS 33 06 906 describes a process for the continuous polymerization of caprolactam, in which the lactam containing 1 to 25% by weight of water is pre-polymerized in a prepolymerization zone under a pressure of 1 to 10 bar with simultaneous evaporation of the water within a residence time of 1 to 10 minutes heated to a temperature of 220 to 280 ° C and then further polymerized in a polymerization zone with continuous removal of the steam. When using laurolactam instead of the lactams mentioned in this document with 7 to 12 ring members, however, practically no conversion is achieved by this process.
Es gibt bisher nur wenige Entwicklungen speziell für die kontinuierliche hydrolytische Polymerisation von Laurinlactam. Alle zu diesem Gebiet veröffentlichten Erfindungen weisen erhebliche Nachteile auf, durch welche die Wirtschaftlichkeit oder die Produkteigenschaften stark eingeschränkt werden.So far, there are only a few developments specifically for the continuous hydrolytic polymerization of laurolactam. All of the inventions published in this area have considerable disadvantages which severely restrict the economy or the product properties.
So wird in der SU-A 12 08 044 zwingend Phosphorsäure als Katalysator verwendet; der Laurinlactam-Umsatz erreicht nur 99 %. Der verbleibende Restmonomergehalt von 1 % verursacht bei der Verarbeitung und Anwendung des Produktes Probleme. Eine kommerzielle Verwendung dieser Produkte würde eine vorhergehende, aufwendige Entmonomerisierung voraussetzen. Außerdem hätte die Verwendung eines derartigen, stark sauren Katalysators den Nachteil, daß das so hergestellte Polylaurinlactam bei seiner Verarbeitung oder beim Gebrauch unter erhöhter Temperatur einen verstärkten hydrolytischen Abbau erfährt; zusätzlich sind die Polymerisationsreaktoren und die Verarbeitungsmaschinen einer verstärkten Korrosion unterworfen.For example, SU-A 12 08 044 uses phosphoric acid as a catalyst; Laurinlactam sales only reach 99%. The remaining residual monomer content of 1% causes problems when processing and using the product. Commercial use of these products would require prior, expensive demonomerization. In addition, the use of such a strongly acidic catalyst would have the disadvantage that the polylaurine lactam thus produced undergoes increased hydrolytic degradation when it is processed or when it is used at elevated temperature; in addition, the polymerization reactors and processing machines are subject to increased corrosion.
Die JP-A 60 041 647 deckt nur den Bereich sehr hoher Temperaturen und Drucke als Verfahrensparameter ab. Unter diesen Bedingungen entstehen jedoch vermehrt Gelpartikel, und es kommt zu Beeinträchtigungen in der Farbe. Auch sind zunächst nur Oligomere zugänglich, deren weitere Polykondensation, z. B. gemäß JP-A 61 166 833, aufwendige Techniken und Aggregate wie Entgasungs-Schneckenmaschinen erfordert.JP-A 60 041 647 only covers the range of very high temperatures and pressures as process parameters. Under these conditions, however, gel particles are increasingly formed and the color is impaired. Also initially only oligomers are accessible whose further polycondensation, for. B. according to JP-A 61 166 833, requires complex techniques and units such as degassing screw machines.
Das in JP-A 49 021 313 beschriebene Verfahren führt zu Reaktionszeiten, die keine wesentlichen Vorteile gegenüber diskontinuierlicher Batch-Fahrweise ergeben (Verweilzeit insgesamt 13 h). Die beschriebene Fahrweise führt zu Vergelung des Produkts im zweiten Reaktor.The process described in JP-A 49 021 313 leads to reaction times which do not result in any significant advantages over discontinuous batch procedures (total residence time 13 hours). The procedure described leads to gelation of the product in the second reactor.
In GB-A 1 468 653 muß erfindungsgemäß Phosphorsäure als Katalysator vorhanden sein; der Entspannungsprozeß wird mit hohem Aufwand isotherm durchgeführt; darüber hinaus hat sich gezeigt, daß die beschriebene Entmonomerisierung in der Praxis nicht durchführbar ist. US-A 4 077 946 ist ähnlich zu werten.In GB-A 1 468 653 phosphoric acid must be present as a catalyst according to the invention; the relaxation process is carried out isothermally at great expense; moreover, it has been shown that the demonomerization described cannot be carried out in practice. US-A 4 077 946 is similar to evaluate.
Darüber hinaus beschreibt EP-A 0 530 592 ein kontinuierliches Polymerisationsverfahren in einem komplizierten mehrteiligen Reaktor, der unter einem Temperaturgradienten gehalten werden muß. Zur Herstellung des fertigen Polymeren ist eine Kondensationsanlage mit Rührern erforderlich. Die angegebenen Wassergehalte bei der Polymerisation (1 bis 10 %) liegen außerhalb der Werte für eine maximale Raum/Zeit-Ausbeute. Die demzufolge notwendigen Verweilzeiten für die Präpolymerisation von 7 bis 8 Stunden bieten keinen Vorteil gegenüber dem diskontinuierlichen Verfahren.In addition, EP-A 0 530 592 describes a continuous polymerization process in a complicated multi-part reactor which has to be kept under a temperature gradient. A condensation system with stirrers is required to produce the finished polymer. The stated water contents during the polymerization (1 to 10%) are outside the values for a maximum space / time yield. The residence times of 7 to 8 hours required for the prepolymerization therefore do not offer any advantage over the batch process.
Aufgabe der vorliegenden Erfindung war daher die Entwicklung eines apparativ möglichst einfachen und wirtschaftlichen Verfahrens. Darüber hinaus sollten keinerlei Katalysatoren notwendig sein, die am Ende im Produkt verbleiben. Der Restmonomerengehalt des erhaltenen Polymeren sollte dem der diskontinuierlich produzierten Materialien entsprechen oder sogar niedriger liegen. Schließlich sollten die Produkte bezüglich Farbe und Gelgehalt ein sehr gutes Niveau besitzen.The object of the present invention was therefore to develop an apparatus which is as simple and economical as possible in terms of apparatus. In addition, no catalysts should be necessary that ultimately remain in the product. The residual monomer content of the polymer obtained should correspond to or even be lower than that of the materials produced discontinuously. Finally, the products should have a very good level of color and gel content.
Diese Aufgaben werden durch ein Verfahren zur kontinuierlichen hydrolytischen Polymerisation von Laurinlactam gelöst, bei dem Laurinlactam und Wasser durch eine Pumpe zudosiert werden, gegebenenfalls einen Reaktor mit weitgehend idealer Rückvermischung durchlaufen, anschließend in einem Rohrreaktor zu einem Präpolymeren reagieren, welches dann über ein Entspannungsventil in ein Entgasungsaggregat entspannt wird, von wo aus es ausgefahren wird, wobei
- a) der Wassergehalt bei der
Präpolymerisation 7 bis 20 Gew.-% beträgt, - b) die Reaktionstemperatur bei der Präpolymerisation 280 bis 320 ° C beträgt und
- c) das Entspannungsventil so geregelt wird, daß der Arbeitsdruck über dem Wasserdampf-Partialdruck der Reaktionsmischung liegt.
- a) the water content in the prepolymerization is 7 to 20% by weight,
- b) the reaction temperature in the prepolymerization is 280 to 320 ° C and
- c) the expansion valve is controlled so that the working pressure is above the water vapor partial pressure of the reaction mixture.
Bevorzugt werden Laurinlactam und Wasser getrennt mit je einer Pumpe gefördert, wobei bevorzugt Kolbenpumpen oder Kolbenmembranpumpen eingesetzt werden.Laurin lactam and water are preferably conveyed separately with one pump each, piston pumps or piston diaphragm pumps preferably being used.
Im gegebenenfalls sich anschließenden Reaktor mit weitgehend idealer Rückvermischung werden die Stoffströme vermischt und schonend auf Reaktionstemperatur gebracht. Hierfür kann beispielsweise ein geeignet ausgelegter Rührreaktor, bevorzugt jedoch ein Schlaufenreaktor, eingesetzt werden. Der Schlaufenreaktor enthält eine Pumpe, die das eingespeiste Material bevorzugt mit dem 10- bis 100-fachen des eingespeisten Stroms im Kreis pumpt.In the optionally subsequent reactor with largely ideal backmixing, the material flows are mixed and brought to the reaction temperature in a gentle manner. For example, a suitably designed stirred reactor, but preferably a loop reactor, can be used for this. The loop reactor contains a pump which pumps the material fed in, preferably with 10 to 100 times the current fed in a circuit.
Die mittlere Verweilzeit des reagierenden Materials im Rohrreaktor beträgt bevorzugt 0,5 bis 6 Stunden und besonders bevorzugt 1,5 bis 4 Stunden. Zur Verschmälerung der Verweilzeitverteilung kann das Rohr gegebenenfalls ganz oder teilweise mit Statik-Mischelementen ausgestattet sein.The average residence time of the reacting material in the tubular reactor is preferably 0.5 to 6 hours and particularly preferably 1.5 to 4 hours. To narrow the dwell time distribution, the tube can, if necessary, be fully or partially equipped with static mixing elements.
Durch die Regelung des Entspannungsventils kann ein bestimmter, frei wählbarer Verfahrensdruck im Innern des Rohrreaktors aufrechterhalten werden. Der Solldruck wird so gewählt, daß jegliche Bildung von Dampfblasen im Rohrreaktor verhindert wird.By regulating the expansion valve, a certain, freely selectable process pressure can be maintained inside the tubular reactor. The setpoint pressure is selected so that any formation of vapor bubbles in the tubular reactor is prevented.
Als Entgasungsaggregat kann z. B. eine Schneckenmaschine, ein Dünnschichtverdampfer, ein Filmtruder oder ein Flashbehälter eingesetzt werden. Besonders geeignet ist ein Flashbehälter, dessen Innendruck durch ein Regelventil in der abgehenden Brüdenleitung geregelt werden kann. Da die Schmelze infolge des Verdampfungsprozesses abkühlt, kann es, abhängig vom verwendeten Wassergehalt, zweckmäßig sein, die zugeführte Schmelze nach der Entspannung als Film über die Innenwandung eines beheizten, senkrechten Rohres zu leiten, um leichter Wärme zuführen zu können. Vorteilhafterweise beträgt die mittlere Verweilzeit der Schmelze im Flashbehälter 1 bis 3 Stunden.As a degassing unit, for. B. a screw machine, a thin film evaporator, a film truder or a flash container can be used. A flash tank is particularly suitable, the internal pressure of which can be regulated by a control valve in the outgoing vapor line. Since the melt cools down as a result of the evaporation process, it may be expedient, depending on the water content used, to conduct the melt supplied after the expansion as a film over the inner wall of a heated, vertical pipe in order to be able to supply heat more easily. The average residence time of the melt in the flash container is advantageously 1 to 3 hours.
Gegebenenfalls verfügt die Anlage über eine weitere Entgasungsstufe, die aus den gleichen Aggregaten bestehen kann wie die erste Entgasungsstufe. Auch hier kann besonders vorteilhaft ein Flashbehälter eingesetzt werden. In diesem Fall sollte die Möglichkeit bestehen, Unterdruck anzulegen. Eine andere bevorzugte Möglichkeit ist hier die Verwendung einer Entgasungsschneckenmaschine.The system may have a further degassing stage, which can consist of the same units as the first degassing stage. A flash container can also be used particularly advantageously here. In this case there should be the possibility to apply negative pressure. Another preferred option here is the use of a degassing screw machine.
Im vorgeschalteten Reaktor mit weitgehend idealer Rückvermischung oder, falls ein solcher nicht installiert ist, in den ersten Abschnitten des Rohrreaktors beginnt die hydrolytische Spaltung des Laurinlactams. Wird beispielsweise ein Schlaufenreaktor eingesetzt, so vollzieht sich dort der Spaltvorgang bis zu einem Umsatz von ca. 30 bis 40 %. Im weiteren Verlauf der Reaktion wird die Spaltung bis zu einem Restgehalt von Laurinlactam von ca. 0,3 Gew.-% vervollständigt. Gleichzeitig erfolgt die Polykondensation bis zu einem zahlenmittleren Polymerisationsgrad (abhängig vom Wassergehalt) von 10 bis 20.In the upstream reactor with largely ideal backmixing or, if one is not installed, in the first sections of the tubular reactor, the hydrolytic cleavage of the laurolactam begins. If, for example, a loop reactor is used, the splitting process takes place up to a conversion of approx. 30 to 40%. In the further course of the reaction, the cleavage is completed to a residual laurolactam content of approximately 0.3% by weight. At the same time, the polycondensation takes place up to a number-average degree of polymerization (depending on the water content) of 10 to 20.
Der überwiegende Teil des Wassers wird im ersten Entspannungsvorgang entfernt, daraufhin setzt die weitere Kondensation ein. Bevorzugt wird im Entspannungsgefäß eine gewisse Füllhöhe an Polymerschmelze aufrechterhalten, damit dem Material genügend Verweilzeit für die Kondensation zur Verfügung steht.Most of the water is removed in the first relaxation process, after which the further condensation begins. A certain filling level of polymer melt is preferably maintained in the expansion vessel so that the material has sufficient dwell time for the condensation.
Das im Entgasungsaggregat weitgehend vom Wasser befreite Produkt wird bevorzugt über eine Pumpe, besonders bevorzugt eine Zahnradpumpe, ausgefahren.The product largely freed of water in the degassing unit is preferably extended by means of a pump, particularly preferably a gear pump.
Im gegebenenfalls vorhandenen zweiten Entgasungsaggregat wird ein weiterer Entspannungsvorgang durchgeführt. Auf diese Weise können noch höhere Molekulargewichte erreicht werden.In the second degassing unit which may be present, a further expansion process is carried out. In this way, even higher molecular weights can be achieved.
An beliebiger Stelle der Anlage können weiterhin auch Zusatzstoffe wie z. B. Molekulargewichtsregler (etwa Laurinsäure oder Dodecandisäure), Comonomere wie etwa Caprolactam, M-Aminoundecansäure oder AH-Salzlösung oder, falls erwünscht, auch Katalysatoren wie etwa Phosphorsäure oder hypophosphorige Säure eingespeist werden. Auch das Einspeisen von Stabilisatoren ist möglich.At any point in the system, additives such as. B. molecular weight regulators (such as lauric acid or dodecanedioic acid), comonomers such as caprolactam, M- aminoundecanoic acid or AH saline or, if desired, also catalysts such as phosphoric acid or hypophosphorous acid. Stabilizers can also be fed in.
Das erfindungsgemäße Verfahren weist insbesondere folgende Vorteile auf:
- - Unter den angegebenen Bedingungen reicht eine mittlere Verweilzeit im Rohrreaktor von 0,5
bis 6 Stunden (abhängig von der gewählten Temperatur und dem Wassergehalt) für einen praktisch vollständigen Umsatz aus. Dies führt zu einer hohen Raum-Zeit-Ausbeute. - - Der Entspannungsprozeß läuft, trotz des extremen Druckgefälles, problemlos beherrschbar ab.
- - Entgegen der bisherigen Expertenmeinung kommt es bei Verwendung eines Flashbehälters als Entspannungsaggregat zu keinerlei Anbackungen, auch nicht nach sehr langen Betriebszeiten, obwohl der Flashbehälter weder über einen Rührer noch über sonstige Mittel zur Abreinigung der Oberflächen verfügen muß.
- - Das erhaltene Polyamid 12 besitzt einen niedrigen Restmonomerengehalt, eine hervorragende Farbe und ist frei von Gelbestandteilen.
- - Under the specified conditions, an average residence time in the tubular reactor of 0.5 to 6 hours (depending on the selected temperature and the water content) is sufficient for practically complete conversion. This leads to a high space-time yield.
- - The relaxation process, despite the extreme pressure drop, is easily controllable.
- - Contrary to the previous expert opinion, there is no caking when using a flash container as a relaxation unit, even after very long operating times, although the flash container does not have to have a stirrer or other means for cleaning the surfaces.
- - The polyamide 12 obtained has a low residual monomer content, an excellent color and is free of gel components.
Im folgenden wird die Erfindung beispielhaft erläutert.The invention is explained below by way of example.
In einer kontinuierlichen Anlage (siehe Fig. 1), bestehend aus den Komponenten
- 1 je einer Kolbenpumpe für Laurinlactam bzw. Wasser,
- 2 einem 17 I Gesamtvolumen fassenden Kreislaufreaktor mit Umlaufpumpe,
- 3 einem Rohrreaktor mit 100 mm Innendurchmesser und 27 m Gesamtlänge, wobei im Abstand von 6 m Pakete aus Statikmischern eingebaut sind,
- 4 einem Druckhalteventil,
- 5a einem Entspannungsbehälter von 150 I Rauminhalt mit druckgeregelter Entspannungseinheit,
- 6a einer Zahnrad-Austragspumpe sowie
- 7 einer Ausfahreinheit zum Strangpressen, Abkühlen und Granulieren
- 1 piston pump for laurolactam or water,
- 2 a 17 I total volume circulating reactor with circulation pump,
- 3 a tubular reactor with an inner diameter of 100 mm and a total length of 27 m, packages of static mixers being installed at a distance of 6 m,
- 4 a pressure maintaining valve,
- 5a a relaxation tank of 150 I volume with pressure-controlled relaxation unit,
- 6a a gear discharge pump and
- 7 an extension unit for extrusion, cooling and granulating
Das erhaltene Produkt weist eine helle Farbe auf und besitzt ein Molekulargewicht (Zahlenmittel aus Endgruppenbestimmung) von 14 500. Der Restgehalt an Laurinlactam ist kleiner als 0,3 %. Das Produkt ist frei von Gelbestandteilen.The product obtained has a light color and has a molecular weight (number average from end group determination) of 14,500. The residual content of laurolactam is less than 0.3%. The product is free of gel components.
Es wird entsprechend Beispiel 1 verfahren mit dem Unterschied, daß hier auf den Kreislaufreaktor verzichtet wird. Die Produkteigenschaften bleiben unverändert, nur der Restmonomergehalt steigt auf 0,5 %.The procedure is the same as in Example 1, with the difference that the circulation reactor is dispensed with here. The product properties remain unchanged, only the residual monomer content increases to 0.5%.
Es wird entsprechend Beispiel 1 verfahren, wobei jedoch dem eingespeisten Wasser eine solche Menge hypophosphorige Säure (H3P02) zugesetzt wird, daß die Gesamtmenge, bezogen auf eingespeistes Laurinlactam, 60 ppm beträgt.The procedure is as in Example 1, but the amount of hypophosphorous acid (H 3 P0 2 ) added to the water fed in is such that the total amount, based on the laurolactam fed in, is 60 ppm.
Es wird ein qualitativ hochwertiges Produkt entsprechend Beispiel 1 erhalten, das Molekulargewicht beträgt jedoch 19 400.A high quality product according to Example 1 is obtained, but the molecular weight is 19,400.
Zusätzlich zum Entspannungsbehälter 5a gemäß Beispiel 1 wird ein weiterer Entspannungsbehälter 5b sowie eine zusätzliche Zahnrad-Austragspumpe 6b eingesetzt, wie es in Fig. 1 dargestellt ist.In addition to the
Die Verfahrensparameter sind:
Ansonsten sind die Parameter entsprechend Beispiel 1. Das erhaltene Produkt weist eine helle Farbe auf und ist frei von Gelbestandteilen. Der Restgehalt an Laurinlactam ist kleiner als 0,3 %. Das Molekulargewicht beträgt 18 700.Otherwise, the parameters are the same as in Example 1. The product obtained has a light color and is free from gel components. The residual laurin lactam content is less than 0.3%. The molecular weight is 18,700.
Claims (10)
dadurch gekennzeichnet,
daß
characterized,
that
dadurch gekennzeichnet,
daß als Reaktor mit weitgehend idealer Rückvermischung ein Schlaufenreaktor verwendet wird.2. The method according to claim 1,
characterized,
that a loop reactor is used as the reactor with largely ideal backmixing.
dadurch gekennzeichnet,
daß als Entgasungsaggregat ein Flashbehälter verwendet wird.3. The method according to any one of the preceding claims,
characterized,
that a flash tank is used as the degassing unit.
dadurch gekennzeichnet,
daß im Einlaufbereich des Flashbehälters die Schmelze als Film über die Innenwandung eines beheizten, senkrechten Rohres geleitet wird.4. The method according to claim 3,
characterized,
that the melt is passed as a film over the inner wall of a heated, vertical tube in the inlet region of the flash container.
dadurch gekennzeichnet,
daß die mittlere Verweilzeit des reagierenden Materials im Rohrreaktor 0,5 bis 6 Stunden und bevorzugt 1,5 bis 4 Stunden beträgt.5. The method according to any one of the preceding claims,
characterized,
that the average residence time of the reacting material in the tubular reactor is 0.5 to 6 hours and preferably 1.5 to 4 hours.
dadurch gekennzeichnet,
daß der Rohrreaktor ganz oder teilweise mit Statik-Mischelementen ausgestattet ist.6. The method according to any one of the preceding claims,
characterized,
that the tubular reactor is fully or partially equipped with static mixing elements.
dadurch gekennzeichnet,
daß die mittlere Verweilzeit der Schmelze im Flashbehälter 1 bis 3 Stunden beträgt.7. The method according to any one of claims 3 to 6,
characterized,
that the average residence time of the melt in the flash container is 1 to 3 hours.
dadurch gekennzeichnet,
daß die Anlage über eine weitere Entgasungsstufe verfügt.8. The method according to any one of the preceding claims,
characterized,
that the plant has a further degassing stage.
dadurch gekennzeichnet,
daß in der zweiten Entgasungsstufe ein Flashbehälter oder eine Entgasungsschneckenmaschine eingesetzt wird.9. The method according to claim 8,
characterized,
that a flash tank or a degassing screw machine is used in the second degassing stage.
dadurch gekennzeichnet,
daß an beliebiger Stelle der Anlage Zusatzstoffe eingespeist werden.10. The method according to any one of the preceding claims,
characterized,
that additives are fed in at any point in the system.
Applications Claiming Priority (2)
Application Number | Priority Date | Filing Date | Title |
---|---|---|---|
DE4405161 | 1994-02-18 | ||
DE4405161A DE4405161A1 (en) | 1994-02-18 | 1994-02-18 | Process for the continuous hydrolytic polymerization of laurolactam |
Publications (2)
Publication Number | Publication Date |
---|---|
EP0668309A1 true EP0668309A1 (en) | 1995-08-23 |
EP0668309B1 EP0668309B1 (en) | 1999-08-11 |
Family
ID=6510538
Family Applications (1)
Application Number | Title | Priority Date | Filing Date |
---|---|---|---|
EP94120047A Expired - Lifetime EP0668309B1 (en) | 1994-02-18 | 1994-12-17 | Process for the continuous hydrolytic polymerisation of laurolactam |
Country Status (7)
Country | Link |
---|---|
US (1) | US5519097A (en) |
EP (1) | EP0668309B1 (en) |
JP (1) | JP3247271B2 (en) |
AT (1) | ATE183213T1 (en) |
CA (1) | CA2142667C (en) |
DE (2) | DE4405161A1 (en) |
ES (1) | ES2135528T3 (en) |
Cited By (1)
Publication number | Priority date | Publication date | Assignee | Title |
---|---|---|---|---|
EP1013701A2 (en) * | 1998-12-23 | 2000-06-28 | Goldschmidt AG | Process and apparatus for continous hydrosilylation reactions |
Families Citing this family (9)
Publication number | Priority date | Publication date | Assignee | Title |
---|---|---|---|---|
ES2210798T3 (en) * | 1997-08-28 | 2004-07-01 | E.I. Du Pont De Nemours And Company | POLYAMIDE PREPARATION PROCESS. |
US6069228A (en) * | 1998-08-17 | 2000-05-30 | E. I. Du Pont De Nemours And Company | Process for preparing polyamides |
DE102007060705A1 (en) * | 2007-12-17 | 2009-06-18 | Evonik Degussa Gmbh | ω-aminocarboxylic acids or their lactams, producing, recombinant cells |
PL2784102T3 (en) * | 2013-03-26 | 2016-06-30 | Uhde Inventa Fischer Gmbh | Method and device for the continuous return of extract water in the polyamide production process |
WO2019093729A2 (en) | 2017-11-08 | 2019-05-16 | 한화케미칼 주식회사 | Method for preparing polyamide by anion ring-opening polymerization and polyamide prepared thereby |
KR102287634B1 (en) | 2017-11-08 | 2021-08-10 | 한화솔루션 주식회사 | Process for producing polyamides via anionic ring-opening polymerization and polyamides thereof |
KR102262512B1 (en) | 2017-11-16 | 2021-06-08 | 한화솔루션 주식회사 | Process for producing polyamides via coordinated anionic ring-opening polymerization |
KR102275688B1 (en) | 2017-11-28 | 2021-07-12 | 한화솔루션 주식회사 | Process for producing end-capped polyamides via anionic ring-opening polymerization |
EP3498759A1 (en) * | 2017-12-13 | 2019-06-19 | Evonik Degussa GmbH | Method for the preparation of polymers from monomers comprising laurolactam |
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EP0117495A2 (en) * | 1983-02-26 | 1984-09-05 | BASF Aktiengesellschaft | Process for the continuous production of polylactams |
DD235798A3 (en) * | 1978-10-12 | 1986-05-21 | Hubert Schade | METHOD FOR CONTINUOUS PRODUCTION OF POLYAMIDE |
EP0530592A2 (en) * | 1991-08-22 | 1993-03-10 | Ube Industries, Ltd. | Continuous polymerization method of laurolactam and apparatus therefor |
Family Cites Families (7)
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DE235798C (en) * | ||||
NL6908381A (en) * | 1969-06-03 | 1970-12-07 | ||
JPS4921313A (en) * | 1972-06-20 | 1974-02-25 | ||
FR2291232A1 (en) * | 1974-11-12 | 1976-06-11 | Ato Chimie | PERFECTED PROCESS FOR ANIONIC POLYMERIZATION OF LACTAMES AND DEVICE FOR ITS IMPLEMENTATION |
US4077946A (en) * | 1976-01-15 | 1978-03-07 | Gennady Abovich Enenshtein | Continuous process of producing polylaurolactam |
DE3621804A1 (en) * | 1986-06-28 | 1988-01-07 | Huels Chemische Werke Ag | METHOD FOR PRODUCING A PRAEPOLYMER AMID FROM A C (DOWN ARROW) 1 (DOWN ARROW) (DOWN ARROW) 2 (DOWN ARROW) -AMINOCARBONSAEURELACTAM |
DE3831708A1 (en) * | 1988-09-17 | 1990-03-22 | Bayer Ag | METHOD FOR PRODUCING BRANCHED (CO) POLYAMIDES BY SOLID-PHASE RE-CONDENSATION AND CORRESPONDING (CO) POLYAMIDES |
-
1994
- 1994-02-18 DE DE4405161A patent/DE4405161A1/en not_active Withdrawn
- 1994-12-17 EP EP94120047A patent/EP0668309B1/en not_active Expired - Lifetime
- 1994-12-17 AT AT94120047T patent/ATE183213T1/en not_active IP Right Cessation
- 1994-12-17 ES ES94120047T patent/ES2135528T3/en not_active Expired - Lifetime
- 1994-12-17 DE DE59408615T patent/DE59408615D1/en not_active Expired - Lifetime
-
1995
- 1995-01-25 US US08/377,623 patent/US5519097A/en not_active Expired - Lifetime
- 1995-02-16 CA CA002142667A patent/CA2142667C/en not_active Expired - Fee Related
- 1995-02-17 JP JP02952395A patent/JP3247271B2/en not_active Expired - Lifetime
Patent Citations (3)
Publication number | Priority date | Publication date | Assignee | Title |
---|---|---|---|---|
DD235798A3 (en) * | 1978-10-12 | 1986-05-21 | Hubert Schade | METHOD FOR CONTINUOUS PRODUCTION OF POLYAMIDE |
EP0117495A2 (en) * | 1983-02-26 | 1984-09-05 | BASF Aktiengesellschaft | Process for the continuous production of polylactams |
EP0530592A2 (en) * | 1991-08-22 | 1993-03-10 | Ube Industries, Ltd. | Continuous polymerization method of laurolactam and apparatus therefor |
Non-Patent Citations (1)
Title |
---|
DATABASE WPI Derwent World Patents Index; * |
Cited By (2)
Publication number | Priority date | Publication date | Assignee | Title |
---|---|---|---|---|
EP1013701A2 (en) * | 1998-12-23 | 2000-06-28 | Goldschmidt AG | Process and apparatus for continous hydrosilylation reactions |
EP1013701A3 (en) * | 1998-12-23 | 2001-05-30 | Goldschmidt AG | Process and apparatus for continous hydrosilylation reactions |
Also Published As
Publication number | Publication date |
---|---|
ES2135528T3 (en) | 1999-11-01 |
JPH07258404A (en) | 1995-10-09 |
CA2142667A1 (en) | 1995-08-19 |
CA2142667C (en) | 2004-09-21 |
EP0668309B1 (en) | 1999-08-11 |
DE4405161A1 (en) | 1995-08-24 |
JP3247271B2 (en) | 2002-01-15 |
ATE183213T1 (en) | 1999-08-15 |
DE59408615D1 (en) | 1999-09-16 |
US5519097A (en) | 1996-05-21 |
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